New findings could aid future development of more efficient therapeutic strategies in the context of regenerative medicine and aging.

AI can move beyond prediction to purposeful molecular design, creating proteins that meet clearly defined research and therapeutic goals.

Researchers suggest that MultiCell could potentially be used to discern early patterns of disease, such as in asthma.

JAX and the NYSCF celebrated the official launch of their unified organization with a ribbon-tying ceremony at NYSCF’s Manhattan research facilities.

Vaccines that display filovirus surface proteins on engineered, self-assembling protein nanoparticles improve immune system detection of the virus.

Lyophilization model can help optimize freeze-drying steps for continuous manufacturing processes, according to MIT researchers.

Engineered dendritic cells capture tumor EVs, enhancing antigen presentation and T cell activation to boost cancer immunotherapy in preclinical models.

CCN1 is a key factor for stabilizing brain circuits in adulthood, offering a therapeutic target for conditions, such as Alzheimer's and PTSD.

Investigations suggest V2P may be efficiently applied for the automated identification of causal variants in simulated and actual patient sequencing data across phenotypes.

The results of the study could improve immunotherapy treatment for patients with colorectal and other barrier-tissue cancers.

A study of over four thousand rats shows gut microbiomes are shaped by both individual genes and the genes of social partners through shared microbes.

IonQ’s quantum technologies are poised to reshape industries, and health care is one of the most promising frontiers.